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821.
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823.
Roger Miras Isabelle Morin Florent Guillain Elisabeth Mintz 《Journal of biological inorganic chemistry》2008,13(2):195-205
Copper is both an essential element as a catalytic cofactor and a toxic element because of its redox properties. Once in the
cell, Cu(I) binds to glutathione (GSH) and various thiol-rich proteins that sequester and/or exchange copper with other intracellular
components. Among them, the Cu(I) chaperone Atx1 is known to deliver Cu(I) to Ccc2, the Golgi Cu–ATPase, in yeast. However,
the mechanism for Cu(I) incorporation into Atx1 has not yet been unraveled. We investigated here a possible role of GSH in
Cu(I) binding to Atx1. Yeast Atx1 was expressed in Escherichia coli and purified to study its ability to bind Cu(I). We found that with an excess of GSH [at least two GSH/Cu(I)], Atx1 formed
a Cu(I)-bridged dimer of high affinity for Cu(I), containing two Cu(I) and two GSH, whereas no dimer was observed in the absence
of GSH. The stability constants (log β) of the Cu(I) complexes measured at pH 6 were 15–16 and 49–50 for CuAtx1 and Cu2I(GS−)2(Atx1)2, respectively. Hence, these results suggest that in vivo the high GSH concentration favors Atx1 dimerization and that Cu2I(GS−)2(Atx1)2 is the major conformation of Atx1 in the cytosol. 相似文献
824.
825.
826.
Liat Bahari Yuval Gilad Ilya Borovok Hamutal Kahel-Raifer Bareket Dassa Yakir Nataf Yuval Shoham Raphael Lamed Edward A. Bayer 《Journal of industrial microbiology & biotechnology》2011,38(7):825-832
The composition of the cellulase system in the cellulosome-producing bacterium, Clostridium thermocellum, has been reported to change in response to growth on different carbon sources. Recently, an extensive carbohydrate-sensing
mechanism, purported to regulate the activation of genes coding for polysaccharide-degrading enzymes, was suggested. In this
system, CBM modules, comprising extracellular components of RsgI-like anti-σ factors, were proposed to function as carbohydrate
sensors, through which a set of cellulose utilization genes are activated by the associated σI-like factors. An extracellular module of one of these RsgI-like proteins (Cthe_2119) was annotated as a family 10 glycoside
hydrolase, RsgI6-GH10, and a second putative anti-σ factor (Cthe_1471), related in sequence to Rsi24, was found to contain
a module that resembles a family 5 glycoside hydrolase (termed herein Rsi24C-GH5). The present study examines the relevance
of these two glycoside hydrolases as sensors in this signal-transmission system. The RsgI6-GH10 was found to bind xylan matrices
but exhibited low enzymatic activity on this substrate. In addition, this glycoside hydrolase module was shown to interact
with crystalline cellulose although no hydrolytic activity was detected on cellulosic substrates. Bioinformatic analysis of
the Rsi24C-GH5 showed a glutamate-to-glutamine substitution that would presumably preclude catalytic activity. Indeed, the
recombinant module was shown to bind to cellulose, but showed no hydrolytic activity. These observations suggest that these
two glycoside hydrolases underwent an evolutionary adaptation to function as polysaccharide binding agents rather than enzymatic
components and thus serve in the capacity of extracellular carbohydrate sensors. 相似文献
827.
Baker PJ Costanzo JP Lee RE 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》2007,177(8):875-883
Hatchlings of the painted turtle, Chrysemys picta, hibernate terrestrially and can survive subfreezing temperatures by supercooling or by tolerating the freezing of their
tissues. Whether supercooled or frozen, an ischemic hypoxia develops because tissue perfusion is limited by low temperature
and/or freezing. Oxidative stress can occur if hatchlings lack sufficient antioxidant defenses to minimize or prevent damage
by reactive oxygen species. We examined the antioxidant capacity and indices of oxidative damage in hatchling C. picta following survivable, 48 h bouts of supercooling (−6°C), freezing (−2.5°C), or hypoxia (4°C). Samples of plasma, brain, and
liver were collected after a 24 h period of recovery (4°C) and assayed for Trolox-equivalent antioxidant capacity (TEAC),
thiobarbituric acid reactive substances (TBARS), and carbonyl proteins. Antioxidant capacity did not vary among treatments
in any of the tissues studied. We found a significant increase in TBARS in plasma, but not in the brain or liver, of frozen/thawed
hatchlings as compared to untreated controls. No changes were found in the concentration of TBARS or carbonyl proteins in
supercooled or hypoxia-exposed hatchlings. Our results suggest that hatchling C. picta have a well-developed antioxidant defense system that minimizes oxidative damage during hibernation. 相似文献
828.
Thomas M Davis Melanie E Shields Qian Zhang Denise Tombolato-Terzić Jeffrey L Bennetzen Ana C Pontaroli Hao Wang Qin Yao Phillip SanMiguel Kevin M Folta 《BMC plant biology》2010,10(1):81
Background
Strawberry (Fragaria spp.) is the familiar name of a group of economically important crop plants and wild relatives that also represent an emerging system for the study of gene and genome evolution. Its small stature, rapid seed-to-seed cycle, transformability and miniscule basic genome make strawberry an attractive system to study processes related to plant physiology, development and crop production; yet it lacks substantial genomics-level resources. This report addresses this deficiency by characterizing 0.71 Mbp of gene space from a diploid species (F. vesca). The twenty large genomic tracks (30-52 kb) captured as fosmid inserts comprise gene regions with roles in flowering, disease resistance, and metabolism. 相似文献829.
Burbaeva GSh Boksha IS Tereshkina EB Savushkina OK Starodubtseva LI Turishcheva MS Mukaetova-Ladinska E 《Neurochemical research》2007,32(9):1434-1444
We have used a systemic approach to establish a relationship between enzyme measures of glial glutamate and energy metabolism
(glutamine synthetase and glutamine synthetase-like protein, glutamate dehydrogenase isoenzymes, brain isoform creatine phosphokinase)
and two major glial proteins (glial fibrillary acidic protein and myelin basic protein) in autopsied brain samples taken from
patients with schizophrenia (SCH) and mentally healthy subjects (23 and 22 cases, respectively). These biochemical parameters
were measured in tissue extracts in three brain areas (prefrontal cortex, caudate nucleus, and cerebellum). Significant differences
in the level of at least one of the glutamate metabolizing enzymes were observed between two studied groups in all studied
brain areas. Different patterns of correlative links between the biochemical parameters were found in healthy and schizophrenic
brains. These findings give a new perspective to our understanding of the impaired regulation of enzyme levels in the brain
in SCH. 相似文献
830.